Demand totalizer



Aug. 16, 1932. G. G. WAITE 1,872,370

DEMAND TOTALIZER Filed Dec. 24, 1927 2 Sheets-Sheet l INVENTOR ATTORNEY Aug. 16, 1932.

e. G. wATrE DEMAND TOTALIZER Filed Dec. 24. 1927 2 Sheets-Sheet 2 Jae-ewe AAAA I ATTORNEY Patented Aug. 16, 1932 r UNITED S ATE-.5;

PATENT o F cET I GRIFFIN e. WAITE, or TOBONTOQQNTABIO, CANADA, ASSIGNOR rro WESTINGHOUSE ELECTRIC & IVIANUFACTUBINGTCOMPANY, A ooaronerroiv or rENNsYLvANIA DEMAND TTOTALIZER I Z1115 invention concerns a'methodof total- J izing the electrical-power demand on arplu- 1' rality of feeders. More particularly, my. in,- z vention is designed to providemeansfor totalizing the readings of a plurality of watthour meters. 7 I

It is the object of this invention to provide means whereby the readings of any number 7 of watthour metersmay b-e totalized upon a single meter.

A further obj provide a totalizing device which will be compact in construction, neat in appearance, a? and relatively inexpensive to manufacture. Another object of the invention is to pro- JlClQ a totalizing system whichwill register accurately the operation of all the :meters to be totalized, without omission or duplica ".ition of operations. $0

In accordance wlth my invention, I arrange a plurality of meters in groups, and provide each meter with a'circuit-controlling device and a relay controlled thereby. 2.". relays associated with each group of meters 5 are connected in a chain, in series with a notching device which collects the operations of the meters in the group by the operation of the relay chain, in response to the circuitiifcontrolling devices actuated by the several 80 meters. 4

The operations of the notching devices are reduced to submultiple of the total number of operations and transmitted to a single ".f'irelay chain common to all the relay groups,

which transmits impulses to the actuating device of the main totalizer; By my sys tem, it is thus possible to tot'alize the readings of a large number of meters by employing a if-fminimum number of'auxiliary devices.

My invention may be more completely understood byreference to the accompanying drawings,

Figure 1 of which is a .,diagr-am illus- "'jtrating the meters, relays and circuitsemployed by my invention; and

Fig. 2 illustrates schematically the totalizing devices.

I Referring to Fig. 1 of the drawings, a plu- .irality of watthour meters 1,2, 3 and 4 are connected to electrical circuits, the demand ect of my invention is to The Application filed December 24, 1327. Serial No. 242,511.

on all of which is to be totalized. These watthour meters are standard instruments,- with the exception that each is provided with contact arm 5,. driven by the rotating element of the meter, and a palr of'fixed con tacts Sand 7, adapted to be engaged by the moving contact arm 5. I p Associated with each watthour meter is a relay which is indicated generally at 8. These relays are comparatively small devices, and a considerable number of them maybe mounted in a small case. The relay 8 is provided with an operatingcoil 9 and a pluralityof' contacts 10 to 15, inclusive. The contacts coil v9 closes the contactslO to 12 and opens the contacts 13 to 15. The relay is designed so that contact-s18 and 1-4 are broken before contacts 10 and 11 are engaged,-and contact 12 is closed before contact 15 is opened.

The operation of the relay 8 is controlled by the contact arm 5 of the watthour meter 1, in cooperation with a selector switch, in

dicated generally at 16 on sheet 2. This selector switch 16 comprises a moving contact arm 17 and a plurality of fixed contacts 18 to 21, inclusive, adapted to be successively engaged thereby.

The contact arm 5 of the watthour meter 1, when it engages the contact 7, connects one :end .of the operating coil 9 to the contact 18" of the selector switch 16, the circuit being from one end of the coil 9, through the contact 15, clo'sed when the relay is de-energized,

the positive control bus 24. V The selector switch 16 is driven by any suitable means, at a rate such that the contact arm 17 makes a complete revolution between T successive engagements of the contact arm 5 of thewatthour meter 1, with the contacts 6 and 7, when the meter is rotating atits maxi mum speed. By this means, every operation of the contact arm 5 isefitective through the selector switch 16 to actuate a totalizing device, in a manner to be hereinafter described,

and it'is impossible for the arm 5 to engage either of the contacts 6 and 7 before the selector switch has operated to complete the relay circuit, in response to the previous engagement of the arm 5 with the other con tact.

When the contact arm 5 engages thecontact 7 to setup the circuit above traced',.tl1e subsequent engagement of the contact 18 by the moving contact arm 17, which is connected to the-negative control -=bus "25, -'will result in the -*ener-gizatio11 of "the" operating coil 9. As above stated, the energization of the operating coil 9 causes contacts 10, 11 and 12 to close and contacts 13,14 and 15-to open. The closing of the contact 12 completes-a looking circuit torthe :operatingacoil 9' as follows,- from the positive control bus 24', throughresiston 23, coil-,9, contact: 12aand thence,=totheinegative'bus 25. As a resultzof. the establishment f this circuit, a the relay contacts are lockedfin the .upper position until the coil 9 is deenergized.

=Whenthe contact 'arm of the watth'our meter 1, in its-continued rotation, engageswthe 1 contact 6, the coil 9 is shunted'by at cirouiti from the-connection abetween the :resistor .23 an .d"-coi-l 9 through=contact 6,-x'contact; arm v 5, conductor-22, contact-18,.contactarm 17 and thenc'eto the'negative control bus 25 and 513116- other: end- 0f coil 9-,-wl1-ich-isthereupon. deenergized. Thus; it: is obvious that :the; oper-. a-tion E of-the :watthou'r meter. -1 causes the contact-arm 5 --alternatjely=toengage zthe contacts 6 and- 7, with 'theresult that the coil 9..i-s suecessively. energized ands-shunted: to control the- -relay-S-and its contacts to 15,1intthe manner just-described. 'Theoperation'of thew selector-switch 16 is 5Sllh that, whensa circuit is set vup by theengagement of the 'contact arm 5 With-the contact 6' or the "contact :=7 of meter 1, the; said circuit will be complet'ed by the engagement of the' movingr contactr arm-1 1 7 with the fixed contact 18: 016 the. selector SWitChqlG- In addition to controllingtheoperationzof therelay. 9, the selectorswitch 116, in-cooperat-ion-withcontacts 5;, 6 and Tof thewatthour-meters 2, 3- and 4, also:serves'tocontrol theoperation of: the relays associated with the latter meters ina similar manner.

Therelays associated with "the 'watthour meters l to Lareso'connected in achain',1in a manner tobe'described in detail-later, astou control the circuit to a notching device 26 "(see Fig. 2).

ll e notching device 26- consists ofva solenoid 27f, aipawlz 28 attached-thereto: andav ratchet -whee l 29 adapted to be rotated step by step by-theoperation of-xtheipawl' 28. Thecircuitgincluding *the relayswof-thex: watthourvlneters 1- to e inclusiveys-and the! solenoid27, of-the notching-rdevice 26,-is=such. that; uponthe operation of, any relay in the chain-,1 the circuit-condition is altered-from ed to'the coma-01: .13.

1.alltherawattlrourvmeters is in -the=neutra-l po that existing'prior to the operation of said relay. If, for example, the circuit to the notching device 26 is open, the operation of any relay in the chain, whether to close its upper contacts or its lower contacts, as a result of the energization or de-energization, respectively, of: its-operating'coil 9.will serve tolclose the circuit to the notchi-ng device 26. If the circuit to the notching device 26 is closed, however, any operation of, any .rclay will -result""in"the' opening of .the circuit.

T-h-is-"method of'operation is obtained by'the circuit. connections about to be described in detail.

.Ihe relays associated with the watthour meters 1 to 4 are identical, and the connectionsntthe various contacts thereof are similar, in many-respects, except in the --case. of relay 32, :as will: be explained in detail below. I :In iall' the relays, contact 10 is perma nently connected to the contact 14:, and, likewise, the contact 11 is permanently eonnect= The: contact '12 oi I each relay is connected to: the anegativebus25, while the resistor 23,-* associated with each relay, is connectedto the positive-.bus 24; One terminal 'of thecoil 9zof each relay" is connected -to-its-resistor andtthei other terminal of coil 9 is connected to the transfer point-betweencontacts 12 and Onetermirial of the solenoid 27 ofthe notching device: 26 is connected to the positiveii'bus 24; and the bthet-terminalof the solenoid;iscconnected to the'transfer point between contacts 10 and 13'ottherelay 8.

- 'In additionrto the connections flb-QXQ- mentio11ed,.the relay contacts arealso inter-connectedca's' follows. i The contact of the relay 8 is connected to thetransfer point he tweelrtheacontacts #1-0-and' 13 of-the relay 30: Theccontact 14 of the relay 8 is similarly connected to: the-transfer point between contacts. 11:.andi 14 of the relay -30.

Theirelay 3O is-connected to -the-relay 31 assnrr'atedtwith :watthourmeter 3 in exactly the same manner that relay 8 is connected to relay 30li The 'connectionsbetween the relay 31 sand: relay 32 -associ:atedwith watthour meter :4, however; are: slightly different.

.The contacti13=of the relay 31 is connected to the 'corntaetim'of the relay 32,-a nd the contact -let' ott the relay 31' isconnected to the contact-:11 of the relay 32. The transfer point between contacts 10 a nd 13of -the relay 32 is connected to-the negative bus 25.

-The"operation of the WatthOur-meters 1 to 4, their. associated relays and the notching device 26, will now be described in detail.

Assuming. first that the contact arm 5 of sition between thecontacts-fi and? and that all relays-are derenergizedi the --circui't from the positive bus 24 through the solenoid 27 to the negativerbus 25-will be open in the relay chain -rbecause ofhthewfaet that'contacts 10 and 11 of the relay 32 Willrbe open. Thecircuit fronrthe solenoid through the relay 7 chain, when'fallrelays are, doe-energ zed, is as follows from the solenoid 27, by conductor 33, to the transfer point between contacts 10 and 13 of relay 8, throughcontact l3 of re- I point between thecontac'ts 10 and 13 of the *relay 31, throiigh the contact 13 of the relay of therelay32f M i v The contacts 10 and 11 of relay 32 being 31; and conductor 36fto the contacts 10 and 14 V lay 32, however, are open under these conditions, and the circuit through the solenoid is therefore, de-energized.

Consider nowthat a load is placed on the circuit which the watthour meter 1 is conn-ected'and thatthe contact arm 5 engages a contact 7 The-operation sets up a circuit throughthe coil 9, in the manner previously described; the circuit being closed by operation of the selector switch 16 when the arm 17engages the contact 18 thereof. When q the coil 9 of the relay 8 is energized by the engagement of the contact .18 by contact arm 17, the contacts 10 to 12 become closed and the contacts 1315015 become opened, and a locking circuit is completed ,for the coil 9 through the contact 12, as'already described Theoperationof the relay 8 closes lts contacts 10 to 12and opens its contacts 13 to 15, causing the circuit including the solennoid 27 to be closed. This circuitlsas folwlows: from the, positive bus. 24 through the solenoid 27, conductor'33 to the transfer point between contacts 10.. and 13, of .relay 8, throughthe: contact 10 to the conductor 37, to the transfer point between the contacts 11 and 14 of the relay 30, thence through the contact 14 to conductor 38 to'the transfer,

point between the contactsll and 14 of relay 31, through contact 14 ofrelay 31'to the conductor 39 and thence to contact 13 of-relay u 32, through the contact 13 andthence to the "negative bus 25. The circuit through the noid 27 to be opened. Suppose, for exam-.

ple, that the contact 5 of the watthour meter 2 now en gagesthe contact 7 thereof. In the manner alreadyrdescribed, the relay'30 is energized to close its 7 upper contacts and open its lower contacts. 1 :The circuit through the. solenoid 27, wheni traced, will now be i found to be open.-- 5 This circuit extends from the positive bus 24 through the solenoid 27 to conductor; 33, thence to thetransfer point between the co ntacts 10 and 13 of relay 8. Since the coil 9 of relay 8 remains energized, tlie contact lO is closed, and the circuit inpen the circuit of solenoid. 27 is 'dG-BHQI", swamv the,

:cludessaid contact, and conductor 37 by which it proceeds to the transfer point be-- tween contacts 11 and 14 of the relay 30.-

The relay 30, also being energized, the cir-,

cuit extends from the conductor 37, through the contact 11 ofthe relay to the conductor 35, thence to the transfer point between contacts'lO and 13 of the relay 3'1. The relay 31,: being de-energized, the circuit includes the contact 13 thereof, the conductor 36 and proceeds to the contacts 10 and 14 of "the relay 32. The contacts 10 and 11 of the re- The operation of the watthour meter 3 to cause engagement of contacts 5 and 7 thereof,

serves to energize the coil, 9 of the relay 31, resulting in the closure of the circuit through the solenoid 27, in themanner de-' scribed in connection with, the relay 8 and 30. Similarly, the energization of the relay 32 causes the circuit again to be opened. Not only is the circuit condition changed by the energization of the various relays, but, also, when the same relays are deeenergized,

similar changes occur in the circuit through.

thesolenoid 27. I

Assume that all the relays are energized and that, as above stated, the circuit through the solenoid 27 is open. If the contact arm 5 of theQwat-thour meter 1 now engages the contact 6, the coil 9 of the relay 8 will be de-energized, since it is shunted by the circuit including'thecontact 6, contact arm '5 of the watthour meter 1, and the contact 18 v and contact arm 17 of thecollector switch 16.

The de-energization of the coil 9 of the relay 8 causes the contacts 10, 11 and 12 to open and .the contacts 13, 14 and 15 to close. If the upper contacts of all the other relays are closed and the lower contacts open, the circuit from the positive bus 24 through the solenoid 27 extends, by means of the conductor 33, to the transfer point between the contacts 10 and 13 of the relay8. Thence, the circuit extends throughthe contact 13 over conductor 34 to the transfer point between the contacts 10 and 13 of the relay 30. The up- 'per contact 10 of the relay 30 being closed,

the circuit includes said contact 10, the conductor 38, connected thereto but which extends to the transfer point between the consimilar to that by which an electric light is controlled from a plurality of points.

From the above description of the operation, it will be seen that any operation of any relay, whether it is an operation which closes the contacts 10-12 or an operation which 2T, It is also obvious that the notchingclei,

vic,e;26 requirestwo relay operations, i1, e3 an opening and; a- 'cl'o'sing'- of the circuit of solenoid 212, before it stepped around one ste p;,-since the core of solenoid 27 drops only Whfillihfi Winding:is de-energiZed, and is lifted tiladven'ee-the ratehetwheel-QQ only upon a succeeding .energization of the sol enoid; lfj theiisolenoid; 27-" is energized and subse quentlyl die-energized, the ratchet ivheel 1 willnoti. be moved. untiltthe solenoid is again;

tacit-arinAT-dvill be advancedirorn one segmenttothe next succeeding se ment when;

energized; It WillbeFnot-iced also, thateach relay goes through a complete cycle of-"o'peir;

ation? in, response 1 to one coinplete' revolution oflthefinioving Contact ofitsassocietedwatthonrfnieter. Since the notching'devl'ce 26;

requires a coni-pleteacycle 'ofineter relay op.- erationfonthe'ratchet wheel 29 to' be ad va ncedlonestep-and because the W-atthournieterscomplete a cycle of relay operation for each: revolution oftheir moving components,

the notching device E EGaccurately responds to the operations ofthe various relays-and is advanced onestep for eachcomplete revo lution-oflanymeter element. It isto be noted that the notching device 26; may be advanced. one step bythe closing operation of one relay and-the subsequent opening operation. of .another'or vice versa. It follows, therefore, that any two successive operations ofany'FtWo meters causes the notching device 26wto beadvanced one step. i

The totalizing system of my invention, as

illustrated, operates to t'otalize the readings of fourbanks' of 'four meters each. As the details of tlie-reni'ainingbanks are all iden tical, the description thereof; is 'notrepeated T The operationsof the meters in the first bankaare collected by the notching device26 and the selector switch 16,- and similar de-,

vices 40, 41 and 42-colle'ct the operations of v the meters inthe. second, third andffourth banks in-loperation with the same selector switch 16. Each or the notching devices 26,

40, 41. and 42 operates a distributor or collector' switc'l1-,'sh0Wn at 43 t'46, inclusive. Each-ofthese distributor sw tches conslsts of a moving contact arm 47 and a plurality of fixed cont'ac-t's48'adaptcd to be engaged successively by, the contact arm 47. Alternate contacts- 48 are, connected together, and these sets of alternate contacts are connectedto a 'set of relays l9to '52, inclusive. 'These relays ,are-the exact counterparts of those described above in connection Withthe Watthour meters, and each relay is controlled by its respective distributor switch in conjunction With the selector switch 16. The 0peration of distnibutor switches andtherela-ys 49 to;-52 is similar to that of Watthour neters 1 toi and their associated relays, the distributors ,43Ito 46fftaki ng the place of the contact? arm and-the contacts 6 and 7 actuted therefor ythic tuatedthe watthour metezrs 1 to 4;. The

distributors43-to '46 are ei'n hy e; to -reduce,

the frequencyfof, the ilnpujses tra nsn itted' 'As an example, the distributors; and; noteh-w 7 ing devices may he so designedthetthe the notching device 26 has, been adyanced three steps. In other words, the re'lay 52,

for instance, is operated, that is to say, its

coil; issuer" energized or de energizedl depending upon its previquscon dition, bythree successive cycles of'operation of the' relays in the fir t been As before stated, it ishotessential: that all four cit-the; relays operate but three complete" cycles of operation 0 any relays Whatever in the firsc, gnoup,wi1l serve to advance theco'ntacterm 47- through the are equalin length to th efc'ontact seg= inentl8t Theilnp'ulses rece ved front the other banks of meters aresim ilarly reduced in "frequency b'y ithedist'ri-bu tors 44,.

and-46, and transmittedto the releys w, 51 and" 52, to operate thetetml-izer 58:"

The relays 49 to 52 a'r'e connected" to the various" distributor switches in exactly the manner v:thju't therelhys 8; 3O;- 31 and 321 are,

connected. to the 'wat thehrfnietersl, 2,3 and 4, andthe inter-connections ofther'elays in bot-h groups are thesamethe relay chhin, comprising the rel-ays 49 to fi2, being: operated 'by means of the distributor switches 4346 cooperiiting witchthe selector switch 16, toactuate steta-lizin device 53* in exact-1y the member; :thfitthe first-banker relays controlled bya the wfiflhouij meters 7 1' j to 4operatesthe notching device 26 The indication oi the Ttotalizor; 53 must, -o ff;course,.. "be multipliedbyga suitable f ctoqt obtain a resultgindicafiiing the; tees-1 oper tiqn o'f the several meters tobe totel'izedgi This factor depends upon the design di -the variees elements ofQt-he ngtehing devices anddis; tributo'r switches Which comprise th'eauxiliary impulse. collectors.

The selector --switqh 16 serves; not only to totalize .the four banks of meterson th totalizing'devices 26, 40,- 41 and- 12 but also serves toitotalizezxthe said devices on the totalizer 53. The tot'ilizer 58, flf l1iliStT&t8d consists simply of-a retcl ieg gnd-pawldevice actuated by e solenoid and driving a ,set of" counter Wheels, but. any other "'suit pble graphic or recording device may be' substi; w l s Ql t fi s:

cessive currentimpulses. 1

As explained al'iei e,the selector switch a in connection with four banks of four meters each, it is obvious that a larger number of meters maybe totalized merely by connecting a larger number in each bank and by utilizing a larger number of banks. It is apparent also that my invention may be even further extended by substituting for the totalizer 53 another auxiliary impulse collector, comprising an impulse receiver and distributor switch such, for example, as 26 and 43, respectively. The totalized reading of four sets of meters, eachcomprising four banks of four meters each, might thus beobtained. It is obvious, therefore, that my invention may be utilized to ,totalizeaccurately the readings of a very large number of independent meters.

Although I have illustrated and described but a single embodiment of my invention, I do not wish to be limited thereto but desire to cover as well any changes or alterations which may occur to those skilled in the art or which fall within the scope of the appended claims.

I claim as my invention:

1. A totalizing system comprising a plurality of meters, circuit-controlling means actuated thereby, a selector switch, a relay associated with each meter, said relays being connected in a chain and controlled by said circuit-controlling means and said selector switch, for controlling the circuit through said chain to a device for totalizing the operations of the meters. 1 i

2. In a totalizing system, the combination with a plurality of" meters arranged 1n groups, of a selector switch, and a plurality of relays connected inchains corresponding to said groups, controlled by-said meters and the selector switch for operating a collector device for each of said groups, and additional relays for totalizing the operations of the collector devices of all said groups, in

a plurality of groups of meters' formeasuring power, a relay associated with each meter disposed to be actuated in accordance with the amounttof power measured by the meter,

the relays of each meter group being connected in chain-circuit relation disposed to transmit current impulses in response to the operation of any relay in the group, a totalizing device responsive to current impulses, ar relay chain operable to transmit current im-' pulses for operating the totalizing device,

and means associated with each relay chain and meter group disposed to transmit a submultiple ofthe impulses received from all. the

relay chains tocontrol the operation of the relay chain which transmits current impulses 'with predetermined operating conditions,

means for receiving the impulses from all the lay chains and transmitting a. submulti -c,

of said impulses, a totalizing device and 5 means responsive to the submultiple of impulses for operating the totalizing device.

' 6. In a totalizing system, in combination a plurality of groups of meters for measur ing power, a relay chain associated with each '90 meter group disposed to transmit impulses in accordance with predetermined operations of the meters, means responsive to the impulses of each relay chain for collecting the impulses from all the relay chains and retransmitting a submultiple of the total number of impulsesreceived from the whole system, atotalizing device, and means responsive to the submultiple of impulses for actuating the totalizing device.

7, In a totalizing system, in combination,

a. plurality of meters for measuring power, a plurality of relays having contact members connected in chain-circuit relation disposed to transmit impulses responsive to the operation of any of the meters,"means responsive to the impulses from said relay-chaincircuit for combining a predetermined number of... the received-impulses and retransmitting the combined number of impulses as a single im-' pulse, atotalizing device, and means responsive to said retransmitted impulses for actuating the totalizing device. v

- 8. In a demand totalizing system, in combination, a plurality ofmeters provided with contact members, a tota-lizer provided with an actuating device responsive to current impulses, a relay associated with,and responsive .7 l to, the operation of the contact members'of each meter, said relays being provided with no contact members connected in chain-circuit relation, and means connected to the relaychain circuit responsive to the current'impulses therein resulting from the operation of the relays for collecting and retransmitting a different number of current impulsesto the actuating device of the .totalizer.

9 A demand totalizing system, in combination, a plurality of groups 1 of -watthour meters having rotatable contact elements, an

independently operated selector switch, a relay associated with each meter disposed to beqcontrolled the joint operation} of the .selecterswitch andthe relay contact elements,

'5 the relays lofzeach group being connected in .gchair icircuitrelation to provide impulse: circuits, a totalizing deyice for all the meters, fl telay tor controlling ,the totalizing ,deyice, and-meansassociated with each relay-chain circuit associated with the meters responsive to the current impulses of the cir- ,j ua controlling, conjunction with the l selector switch, the relay chain associated with the totalizing device.

metering systempin combination,

pl a i -Qt Wi h r m t -ar ociated with each watthou-r meter, said meter's contact elements disposed tocontrol operation of the in accordance with ithepower measunecl the meters,- said relays beingconnected in chain-circuit relation, a

main. totalizer provided with an actuating device responsive. to current impulses, a 911;-

ra lity of relays connected in chain-circuit rejlation torcontrnlling said actuating device, Vaplurality of. distributor switches for controllingthe operation of said relays, means 5 vires apnsiye current impulses in the chainrelay circugt'controlled by the meters for actuating the distributor, and a selector copperative with thev distributors and the con tapt elements of the meters for controlling the operation of the chain relays, whereby each meter and distributor operation is rendered 3 f ffective to-causecurrent impulsesin'their respective relay chains. V

11-, Atotalizing-system comprising a plurality of meters, circuitcontrollingimeans actuated by the meters',:a selector switch independently operated at a speed proportional t9 the-maximum meter speed, [a relay assouciated with-each meter, said relays having contact members connected in a plurality of chain circuits for transmit-ting cur-rent impulses inc-response to theopera'tions of the circuitcontrolling means and the selector switch, a plurality of distributonswitches, .means responsive to the current; impulses of the relay-chain circuits for actuating the dis- 5 tribut-orswitchcs, said distributor switches f and the Selector switch being operable to transmit a sub-multiple of all the impulses received iromithe meter relay chains, relays associated with the distributor switches connectecl in chain -circuit relation said relays responsive to. the impulses transmitted theclistributorswitches and; the selector switch and operable to transmit impulses corresponding; in number to the total submultiple impulses anda main totalizing deyice responsive to impulses transmitted from the, distributor relay chain for totalizingthe submultipleimpulses. In a metering system, combination, a ura y- Q creep Qt atthec er ha ing circuit-controlling contact members actu-atedin' ;accordance"with the operation of the meter,.a relay provided with contactmembers associated with veach meterdisposed to be controlled by the meter contact members, the contact membersoi all the relays in each group being connected in a chain circuit to provide for originating at current impulse in :the circuit upon the operation of any relay, a main totalizing meter for thesysteln, means responsive .to current impulses for actuating l the totalizing meter, means associated with each relay-chain circuit and responsive to the current impulses thereof for collecting and retransmitting a dill'er'ent number otim-pulses to the actuating means for the main totalizing meter than the total number of the current impulses receivedf-rom the meters in each 7 group, and independently operable means disposed to cooperatein the control of the chain relays and the actuating means for the main totalizingmeter, thereby to cause each meter impulse to be effective. I

'13. A totalizing system comprising a plurality of meteis provided with rotating switch elements, a selector switch disposed to be actuated at a speed proportional to the maximum speed of the meters, a relay associated with each'meter disposed to "be controlled in accordance with the operation of the meters and the selector switch, totalizing means responsive to current impulses, and meansvresponsive to current impulses trans- -mitt ed by the relays associated with the meters for collecting and retransniitting a different number of'current; impulses for operating the totalizing means. i

14; A totalizing system comprising a plurality of watthour meters, a selector switch,

a plurality of relays responsive to the operation of the meters andlthe selector switch for 1 controlling an impulse circuit, means responsive to the current impulses transmitted oversaid circuit as a result of the operationof the relays for collecting the impulses and retransmitting a sub-multiple of the total number of received impulses, a totalizer, andmeans responsive to the impulses transmitted by the collecting means-for opcrating the totalizer to totalize the power measuredbyall the meters. 15. The combination with aplurality of watt-hour meters having rotary contact ;members, of means for totalizing the operations of all the meters comprising a totalizer device responsive to current impulses, a

collector switch for transmitting current impulses to: the totalizer proportional in numher to thetot'al number of revolutions of-the 'metcrs, an energizing circuit for the collector switch, andmeans controlled by the operationzof-the rotar-ycontact members of the -m, iersfor opening and closing the collector switch energizing circuit in accordance with the operation of the meters;

16. A totalizing system comprisin a plurality of meters, rotary contact mem ers actuated by the meters, a chain of relays corresponding in number to the number of meters, a selector switch disposed to cooperate with the rotary contact members of the meters to efl'ect the operation of the relays in accordance with the movements of the meters, a single circuit controlled by the relay chain and means responsive to the opening and closing of the circuit for totalizing the operations of all the meters.

17 In a totalizing system, in combination, a plurality of watthour meters having circuit-controlling contact members, a sepa- V rately-actuated selector switch, a plurality of relays having their contact mem bers connected in chain-circuit relation, operating circuits for said relays controlled by the contact members of the meters and the selector switch, a source of current connected to the chain circuit, a totalizer responsive to current impulses and distributor means actuated in accordance with the successive opening and closing of the chain circuit for collecting the total number of impulses transmitted over the chain circuit by all the meters and retransmitting a sub-multiple of the received impulses for actuating the totalizer.

In testimony whereof, I have hereunto subscribed my name this 16th day of December 1927.

GRIFFIN G. WAITE. 

